CN217228774U

CN217228774U - Fireproof plate structure and fireproof container

Info

Publication number: CN217228774U
Application number: CN202220540905.8U
Authority: CN
Inventors: 汤健; 陆宏; 朱春锋; 施圣杰
Original assignee: Shanghai Huanyu Logistics Technology Co Ltd; Dongfang International Container Qidong Co Ltd
Current assignee: Shanghai Huanyu Logistics Technology Co Ltd; Dongfang International Container Qidong Co Ltd
Priority date: 2022-03-11
Filing date: 2022-03-11
Publication date: 2022-08-19
Anticipated expiration: 2032-03-11

Abstract

The utility model relates to a container technical field especially discloses PLASTIC LAMINATED structure and fire prevention container. The fireproof plate structure comprises a steel plate layer, a rock wool layer, a spacing layer and an inner surface layer from outside to inside in sequence; wherein, rock wool layer with it is built on stilts empty layer that forms between the interior surface course. The fireproof container is characterized in that the edge part of the container body of the fireproof container is provided with a beam column, and the side wall of the fireproof container is of the fireproof plate structure; any two adjacent fireproof plate structures are connected through beams and columns. The beneficial effects are that: on the basis of a common container, the fireproof function of A60 is added, the fireproof heat-insulating structure is provided with a multilayer fireproof heat-insulating structure, and the safety of equipment operation and maintenance operators is improved.

Description

Fireproof plate structure and fireproof container

Technical Field

The utility model relates to a container technical field especially relates to PLASTIC LAMINATED structure and fire prevention container.

Background

Containers have evolved from initial cargo vehicle carriers to containers that employ equipment integration and energy storage integration. The container is a box body internally provided with a plurality of mechanical, electrical and control integrated systems, and can be applied to containers in various environments such as chemical engineering, ports, oil platforms, ships, geological exploration, mines and the like. The requirements on fire prevention, heat preservation and heat insulation, weather proofing and the like of the container are more strict. The common container is difficult to meet the use requirements of multiple working conditions.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model adopts the following technical scheme:

fire-proof board structure, from outside to inside in sequence

Steel plate layer, rock wool layer, spacing layer and inner surface layer;

wherein, rock wool layer with it is built on stilts empty layer that forms between the interior surface course.

In some modes, the steel plate layer and the rock wool layer are connected with the beam column at the end part.

In some forms, any two adjacent fire retardant panel structures are connected by a beam and column.

In some forms, the inner facing is connected to the deck of steel and/or rock wool by means of overhead or beam and columns.

In some forms, the steel deck is a sheet-type or corrugated type.

The fire-resistant container is a container with a fire-resistant,

the edge part of the box body is provided with a beam column,

the side wall of the fireproof plate is provided with the fireproof plate structure;

any two adjacent fireproof plate structures are connected through beams and columns.

In some modes, 8 beam columns of the box body form a cubic frame body, and a fireproof plate structure is arranged between 4 beam columns on the same plane.

In some forms, at least one fire panel structure is provided with a fire door and/or a visual fire window; the side wall of the fireproof container is provided with an air inlet and an air outlet.

In some forms, the air outlet communicates between the fire container and the equipment compartment.

In some modes, a cable through cabin MCT penetrating piece is arranged on a fire prevention plate structure of the fire prevention container connected with the equipment cabin.

The utility model has the advantages that:

on the basis of a common container, the fireproof function of A60 is added, the fireproof heat-insulating structure has a multilayer fireproof heat-insulating structure, and the safety of equipment operation and maintenance operators is improved.

Drawings

FIG. 1 is a schematic view of a fire retardant panel construction;

FIG. 2 is a schematic top view of the container;

fig. 3 is a two-view diagram of fig. 2.

In the figure:

10 fireproof containers, 11 fireproof doors, 12 air inlets, 13 air outlets, 14 cable through cabin MCT penetrating pieces, 20 equipment cabins, 100 fireproof plate structures, 101 steel plate layers, 102 rock wool, 103 separation layers, 104 inner surface layers and 200 beam columns.

Detailed Description

This section introduces a first aspect of the fire retardant panel structure：

The fire retardant panel structure 100, as shown in FIG. 1, is, in order from the outside to the inside

A steel plate layer 101, a rock wool layer 102, a spacing layer 103 and an inner surface layer 104;

and an empty space 103 is formed between the rock wool layer 102 and the inner surface layer 104 in an overhead manner. The middle support or the end support can be overhead, that is, no other structural layer is arranged between the rock wool layer 102 and the inner surface layer 104, and the specific structure is not particularly limited.

One of them, the steel deck 101, rock wool layer 102 end are connected with beam column 200. Thus, the ends of the steel plate layer 101 and the rock wool layer 102 are provided to the beam column 200, and the two layers are bonded to each other.

Two of these, as shown in fig. 2-3, any two adjacent fire retardant panel structures 100 are connected by a beam and column 200. When two fire deck structures 100 are joined, they are connected by beams 200 and provide framing support.

Third, the inner surface layer 104 is connected to the steel deck 101 and/or the rock wool deck 102 through an overhead member or a beam column 200. The space layer 103 is realized, so that a space cavity is kept between the inner surface layer 104 and the rock wool layer 102. Wherein, the inner layer 104 is a decorative plate layer, which has fire-proof property. One way of using the rock wool layer 102 is to use a60 fire proof cotton, and the inner layer 104 is a decorative plate.

Fourthly, the steel plate layer 101 is of a plate type or a corrugated type. The plate is a sheet type as shown in fig. 1, and is a sheet-like plate as a whole, and the plate has many concave-convex deformation parts as shown in a corrugated type as shown in fig. 2.

Fire resistant shipping container as set forth in the second aspect of this section：

The fire resistant container 10, as shown in figure 2,

the prism part of the box body is provided with a beam column 200,

the side wall is the fire-proof plate structure 100;

any two adjacent fire shield structures 100 are connected by a beam column 200.

The edge part of the box body is a part with two connected surfaces, and the side surface of the box body is a side wall.

In a specific example, 8 beams 200 of the box body form a cubic frame, and a fire-proof plate structure 100 is arranged between 4 beams 200 on the same plane. As shown in fig. 2-3, a square frame having 8 ribs is formed by the beam columns 200, and then the respective fire shield structures 100 are disposed in any coplanar 4 beam columns.

At least one fire protection panel structure 100 is provided with fire protection doors 11 and/or visual fire protection windows; the side wall of the fireproof container 10 is provided with an air inlet 12 and an air outlet 13.

As shown in fig. 2, the exhaust vent 13 communicates the fire container 10 and the equipment compartment 20.

As shown in fig. 3, the fire protection plate structure 100 of the fire protection container 10 connected to the equipment bay 20 is provided with cable through-bay MCT penetrations 14.

The A60 fireproof structure is a fireproof heat-insulation structure with 4 layers including a box steel plate layer, a rock wool layer, an air layer and a decorative plate layer, and can effectively meet the requirements of A60 on fire prevention, heat insulation and heat insulation. The interior installation uses the B15 decorative board, makes the container cabin inside more pleasing to the eye, and the decorative board still has certain fire-retardant rating. The interior of the container is divided into a plurality of functional spaces according to the configuration of different devices, and the spaces are flexibly and freely combined according to actual requirements. The front end and the rear end of the container are provided with natural air inlet and fan exhaust devices, so that fresh air of a working environment in the cabin is effectively guaranteed, and the opening is provided with an A60 fireproof air valve, so that the integral A60 fireproof continuity of the container is guaranteed. The cable of the equipment cabin and the cable of the working cabin are communicated through an A60 cable through cabin MCT penetrating piece, so that the integral A60 fireproof continuity of the container is guaranteed.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. Which all fall within the protection scope of the utility model. The protection scheme of the utility model is based on the appended claims.

Claims

1. A fire protection plate structure (100), characterized in that it is, in order from the outside to the inside

A steel plate layer (101), a rock wool layer (102), a spacing layer (103) and an inner surface layer (104);

wherein, an empty space layer (103) is formed between the rock wool layer (102) and the inner surface layer (104) in an overhead manner.

2. The flame retardant panel structure (100) of claim 1, wherein the steel deck (101), rock wool deck (102) ends are connected to a beam column (200).

3. The flame retardant panel structure (100) of claim 2, wherein any two adjacent flame retardant panel structures (100) are connected by a beam-column (200).

4. The flame retardant panel structure (100) of claim 1, wherein the inner facing layer (104) is connected to the steel deck (101) and/or the rock wool layer (102) by means of an overhead member or beam column (200).

5. The flame retardant panel structure (100) of claim 1, wherein the steel sheet layer (101) is of a sheet-type or corrugated type.

6. Fire resistant container (10) characterized in that,

the edge part of the box body is provided with a beam column (200),

the fire retardant panel structure (100) according to any one of claims 1 to 5;

any two adjacent fire protection plate structures (100) are connected through a beam column (200).

7. A fire resistant container (10) as claimed in claim 6, characterised in that the 8 beams (200) of the container form a cubic frame, with fire resistant panel structure (100) between 4 beams (200) in the same plane.

8. Fire resistant container (10) according to claim 6, characterised in that at least one fire proof plate structure (100) is provided with fire proof doors (11) and/or visual fire proof windows; the side wall of the fireproof container (10) is provided with an air inlet (12) and an air outlet (13).

9. Fire protection container (10) according to claim 8, wherein said air outlet (13) communicates the fire protection container (10) with the equipment compartment (20).

10. Fire protection container (10) according to claim 9, characterized in that the fire protection plate structure (100) of the fire protection container (10) in connection with the equipment compartment (20) is provided with cable through-compartment MCT-penetrations (14).